The content of the invention
The purpose of the present invention is overcome the deficiencies in the prior art, there is provided a kind of intelligent air energy bathtub radiator, for saving
Radiator material resource is saved, makes bathtub that there is the function of radiator.
The technical solution adopted in the present invention is:Intelligent air energy bathtub radiator, include radiating bathtub, air can fill
Put and controller, radiating bathtub include double-layer bathtub, inner bag and inner disc, double-layer bathtub is sealed by outer layer cylinder and internal layer cylinder
Connect and compose, sealing die cavity is provided between outer layer cylinder and internal layer cylinder, inner bag is located at closed type intracavitary, and closed type is heated using inner bag
The water of intracavitary, as bath hot water and the thermal source of radiator;Inner disc is enclosed in internal layer cylinder, avoids bather from directly stepping down in internal layer
On the casing wall of cylinder, scalded by internal layer cylinder;Internal layer cylinder is provided with Manual water drain valve and electric draining valve, Manual water drain valve and electronic
The water inlet of draining valve is located at the cylinder bottom of internal layer cylinder, and the delivery port of Manual water drain valve and electric draining valve is connected with downcomer,
For the bath water in internal layer cylinder to be drained;Air energy device includes compressor, radiator, expansion valve and evaporator, pressure
The refrigerant out splice going splice of contracting machine is connected with radiator, and radiator is connected with expansion valve, and expansion valve is connected with evaporator, evaporator
It is connected with the refrigerant input adapter of compressor;Radiator is provided with conduction oil in inner bag in inner bag;The bathtub that radiates is provided with heat
Water pump, the joint that draws water of heat-exchanger pump connect with sealing die cavity, and the water out adapter of heat-exchanger pump is located on internal layer cylinder, for by Double-layer bath
The hot water of cylinder closed type intracavitary is extracted into internal layer cylinder;Outer layer cylinder is provided with water supply electromagnetic valve, water supply electromagnetic valve out splice going splice and sealing
Die cavity is connected, and water supply electromagnetic valve input adapter is connected with running water pipe, for running water to be injected into closed type intracavitary;Controller is set
Have start button, stop button, water supply button, drain button, hot water button, the first temperature sensor, second temperature sensor,
Temperature indicator, liquid level sensor, the 4th liquid level sensor, inductive switch, blue-tooth device, temperature controller and intelligent control are pressed
Button, manual control and intelligent control for intelligent air energy bathtub radiator;First temperature sensor and level sensing
Device is located in internal layer cylinder, and the 4th liquid level sensor is located in inner bag positioned at the top of sealing die cavity, second temperature sensor, senses
Switch is positioned at the cylinder bottom of internal layer cylinder, and for temperature controller on controller, the probe of temperature controller is located at the interior space;Controller passes through control
Line processed is connected with air energy device, electric draining valve, heat-exchanger pump and water supply electromagnetic valve.
The state of a control of the controller of intelligent air energy bathtub radiator includes manual state of a control and intelligent control
State;Manual state of a control includes the manual state of a control of radiating and the manual state of a control of bathing;Radiate manual state of a control
When, the power supply of heat-exchanger pump is cut off by controller, and heat-exchanger pump is in off-position;Intelligent control state includes radiating intelligent control
State and bathing intelligent control state;During the intelligent control state that radiates, the power supply of heat-exchanger pump is cut off by controller, at heat-exchanger pump
In off-position.
The application method of intelligent air energy bathtub radiator is:Intelligent air energy bathtub radiator is as radiating control manually
In use, pressing water supply button, its signal is transferred to controller by water supply button, and controller enters the manual state of a control that radiates,
Controller control water supply electromagnetic valve is opened, and running water is entered between outer layer cylinder and internal layer cylinder by running water pipe through water supply electromagnetic valve
Die cavity is sealed, when the water level of closed type intracavitary reaches the position of the 4th liquid level sensor, controller control water supply electromagnetic valve closes
Close, supply water and stop;Meanwhile start button is pressed, its signal is transferred to controller by start button, and controller control air can fill
Operation is put, the operation of compressor compresses refrigerant, using evaporator absorption air energy, is transferred heat to using radiator in inner bag
Conduction oil, the water of closed type intracavitary is heated as hot water using conduction oil and inner bag, the hot water of closed type intracavitary is by warm
Amount passes to the internal layer cylinder of double-layer bathtub, and the interior space is distributed heat to using internal layer cylinder, and intelligent air energy bathtub is radiated
Device uses as radiator;Control is in use, click hot water button manually as bathing for intelligent air energy bathtub radiator, heat
Its signal is transferred to controller by water button, and controller enters the manual state of a control of bathing, controller control hot water pump operation, heat
The hot water of closed type intracavitary is extracted into internal layer cylinder by water pump, is used as bath water;When the water level of internal layer cylinder, which reaches, to be required, then press
Its signal is transferred to controller by hot water button once, hot water button, and controller control heat-exchanger pump is out of service, and supplying hot water stops
Only;Meanwhile constantly distributing with internal layer cylinder bath water heat, the hot water of closed type intracavitary constantly transfers heat to internal layer
Cylinder, the bath water that internal layer cylinder is constantly transferred heat in internal layer cylinder, the amplitude that bath water temperature reduces is reduced, avoids bather
Suffer from cold.
Intelligent air energy bathtub radiator is as radiator intelligent control in use, controlling water supply electromagnetic valve using controller
Open, running water enters sealing die cavity by running water pipe through water supply electromagnetic valve, when the water level of closed type intracavitary reaches the 4th liquid level
During the position of sensor, its signal is transferred to controller by the 4th liquid level sensor, and controller control water supply electromagnetic valve is closed, from
Water stops entering sealing die cavity;Meanwhile controller control air energy device work, compressor operating, using evaporator and
The high temperature heat that the low temperature heat energy of air is converted into by radiator, by radiator, conduction oil and inner bag by closed type intracavitary
Water heating;The hot water of closed type intracavitary transfers heat to the internal layer cylinder to double-layer bathtub, is distributed heat using internal layer cylinder
To the interior space, the heating function of implementation intelligent air energy bathtub radiator;When the temperature of interior is higher than the room temperature upper limit set
When, its signal is transferred to controller by temperature controller, and controller control compressor stops, and radiator stops radiating;With Indoor Temperature
The continuous reduction of degree, when temperature the prescribing a time limit at room temperature less than setting of interior, its signal is transferred to controller by temperature controller, control
Device controls compressor operating, and radiator radiates again;So constantly circulation, by indoor temperature control in the range of setting;Intelligence
Energy air energy bathtub radiator is as bathtub intelligent control in use, controlling hot water pump operation using controller, heat-exchanger pump will be close
Hot water in envelope die cavity is extracted into internal layer cylinder, is used as bath water;When the bath water water level of internal layer cylinder reaches the water level of setting
When, its signal is transferred to controller by liquid level sensor, and controller control heat-exchanger pump is out of service, and supplying hot water stops, to use
Person provides the bath water for being adapted to bathing temperature;Meanwhile radiator constantly transfers heat to internal layer by conduction oil and inner bag
Cylinder, internal layer cylinder constantly by the bath water of heat transfer internal layer cylinder, avoid the reduction of bath water temperature;With internal layer cylinder bath water not
The disconnected heat for absorbing internal layer cylinder transmission, when the temperature of bath water rises to the temperature upper limit of setting, the first temperature sensor will
Its signal is transferred to controller, and controller control compressor operating is out of service, and radiator stops radiating;Bathing or bathing are complete
Finish, press drain button, its signal is transferred to controller by drain button, and controller control electric draining valve is opened, internal layer cylinder
Bath water be discharged to downcomer through electric draining valve;Meanwhile controller exits intelligent control state.
After controller exits intelligent control state, user is joined using mobile phone or network by blue-tooth device and controller
System, controller is issued into the instruction for preparing bath hot water, controller is converted into intelligent control state after receiving instruction;Controller control
Water supply electromagnetic valve processed is opened, and running water enters sealing die cavity by running water pipe through water supply electromagnetic valve, when the water level of closed type intracavitary
When reaching the position of the 4th liquid level sensor, its signal is transferred to controller by the 4th liquid level sensor, and controller control is supplied water
Closed electromagnetic valve, running water stop entering sealing die cavity;After water supply electromagnetic valve is closed, controller control air energy device work,
The water of closed type intracavitary is heated by radiator, conduction oil and inner bag, bath hot water is got out in advance for user, implements
The long-distance intelligent control of intelligent air energy bathtub radiator work;When in the temperature that the temperature of the water of closed type intracavitary reaches setting
In limited time, its signal is transferred to controller by the first temperature sensor, and controller control air energy device is stopped;So constantly
Circulation, by the water management of closed type intracavitary within the temperature range of setting.
The beneficial effects of the invention are as follows:Intelligent air energy bathtub radiator is provided with radiating bathtub, air energy device and control
Device processed, intelligent air energy bathtub radiator is as heating radiator in use, controlling air energy device to radiate using controller
The water heating of the closed type intracavitary of bathtub, using radiating, bathtub distributes heat in the interior space, intelligent air bathtub is dissipated
Hot utensil has the function of radiator;Intelligent air energy bathtub radiator is as bathing or bathing in use, will using heat-exchanger pump
The water of closed type intracavitary is extracted into the internal layer cylinder of radiating bathtub, meanwhile, the bath water heating of internal layer cylinder is protected using air energy device
Temperature, enable intelligent air bathtub radiator that there is the function of bathtub;Implemented using the first temperature sensor and liquid level sensor
To the intelligent control of intelligent air energy bathtub radiator, implemented using mobile phone and internet to intelligent air energy bathtub radiator
Remote control, control the work of intelligent air energy bathtub radiator in advance outside, get hot water ready in advance, enable intelligent air bathtub
Radiator has the function of control, intelligent control and remote control manually.
Embodiment
The present invention is further detailed below in conjunction with the accompanying drawings:
The structural representation of intelligent air energy bathtub radiator shown in Fig. 1, intelligent air energy bathtub radiator include
Radiate bathtub 1, air energy device 2 and controller 3, and radiating bathtub 1 includes double-layer bathtub 4, inner bag 5 and inner disc 6, double-deck
Bathtub 4 is tightly connected with internal layer cylinder 8 by outer layer cylinder 7 and formed, and sealing die cavity 9 is provided between outer layer cylinder 7 and internal layer cylinder 8, and inner bag 5 is set
In in sealing die cavity 9, the water in sealing die cavity 9 is heated using inner bag 5;Inner disc 6 is enclosed in internal layer cylinder 8, avoids bather direct
Step down on the casing wall of internal layer cylinder 8, scalded by internal layer cylinder 8;Internal layer cylinder 8 is provided with Manual water drain valve 10 and electric draining valve 11, hand
The water inlet of dynamic discharging valve 10 and electric draining valve 11 is located at the cylinder bottom 12 of internal layer cylinder 8, Manual water drain valve 10 and electronic row
The delivery port of water valve 11 is connected with downcomer 13;When internal layer cylinder 8 needs to drain bath water, Manual water drain valve 10 is opened, by bathing
Water is discharged to downcomer 13;Air energy device 2 includes compressor 14, radiator 15, expansion valve 16 and evaporator 17, compressor
14 refrigerant out splice going splice is connected with radiator 15, and radiator 15 is connected with expansion valve 16, and expansion valve 16 connects with evaporator 17
Connect, evaporator 17 is connected with the refrigerant input adapter of compressor 14;Radiator 15 is provided with heat conduction in inner bag 5 in inner bag 5
Oil 18;Radiating bathtub 1 is provided with heat-exchanger pump 19, and the joint 20 that draws water of heat-exchanger pump 19 connects with sealing die cavity 9, the water outlet of heat-exchanger pump 19
Joint 21 is located on internal layer cylinder 8, and the hot water for sealing double-layer bathtub 4 in die cavity 9 is extracted into internal layer cylinder 7;Outer layer cylinder 7 is provided with
Water supply electromagnetic valve 22, the out splice going splice of water supply electromagnetic valve 22 connect with sealing die cavity 9, the input adapter of water supply electromagnetic valve 22 and running water
Pipe 23 connects, for running water to be injected in sealing die cavity 9;Controller 3 is provided with start button 24, stop button 25, supplies water and press
Button 26, drain button 27, hot water button 28, the first temperature sensor 29, second temperature sensor 30, temperature indicator 31, liquid
Level sensor 32, the 4th liquid level sensor 50, inductive switch 33, blue-tooth device 34, temperature controller 35 and intelligent control button 36,
First temperature sensor 29 and liquid level sensor 32 are located in internal layer cylinder 7, and the 4th liquid level sensor 50 is positioned at sealing die cavity 9
Top, second temperature sensor 30 are located in inner bag 5, and inductive switch 33 is located at the cylinder bottom 12 of internal layer cylinder 7, and temperature controller 33 is located at control
On device 3 processed;Controller 3 passes through control line and air energy device 2, electric draining valve 11, heat-exchanger pump 19 and water supply electromagnetic valve 22
Connection.
In order to implement the various control function of intelligent air energy bathtub radiator, the control of intelligent air energy bathtub radiator
The state of a control of device 3 includes manual state of a control and intelligent control state;Manual state of a control includes radiating control manually
State processed and the manual state of a control of bathing;During the manual state of a control that radiates, the power supply of heat-exchanger pump 19 is cut off by controller 3, heat
Water pump 19 is in off-position;Intelligent control state includes radiating intelligent control state and bathing intelligent control state;Dissipate
During hot intelligent control state, the power supply of heat-exchanger pump 19 is cut off by controller 3, and heat-exchanger pump 19 is in off-position.In order to ensure intelligence
The normal use of energy air energy bathtub radiator, Manual water drain valve 10, electric draining valve 11 and the initial shape of water supply electromagnetic valve 22
State is:Manual water drain valve 10, electric draining valve 11 and water supply electromagnetic valve 22 are closed.
Intelligent air energy bathtub radiator is used as radiating to control manually in use, pressing water supply button 26, water supply button 26
Its signal is transferred to controller 3, controller 3 enters the manual state of a control that radiates, and controller 3 controls water supply electromagnetic valve 22 to beat
Open, the sealing die cavity 9 that running water is entered between outer layer cylinder 6 and internal layer cylinder 7 by running water pipe 23 through water supply electromagnetic valve 22, work as sealing
When water level in die cavity 9 reaches the position of the 4th liquid level sensor 50, controller 3 controls water supply electromagnetic valve 22 to close, and water supply stops
Only;Meanwhile start button 24 is pressed, its signal is transferred to controller 3 by start button 24, and controller 3 controls air energy device 2
Operation, the operation of the compression refrigerant of compressor 14, using the absorption air energy of evaporator 17, transferred heat to using radiator 15 interior
Conduction oil 18 in courage 5, the water sealed in die cavity 9 is heated as hot water using conduction oil 18 and inner bag 5, seals die cavity 9
Interior hot water transfers heat to the internal layer cylinder 8 of double-layer bathtub 4, and the interior space is distributed heat to using internal layer cylinder 8, will intelligence
Air energy bathtub radiator uses as radiator;Intelligent air energy bathtub radiator is controlled in use, pressing manually as bathing
Its signal is transferred to controller 3 by hot water button 28 once, hot water button 28, and controller 3 enters the manual state of a control of bathing, control
Device 3 processed controls heat-exchanger pump 19 to run, and the hot water sealed in die cavity 9 is extracted into internal layer cylinder 8 by heat-exchanger pump 19, is used as bath water;
When the water level of internal layer cylinder 8, which reaches, to be required, then hot water button 28 being clicked, its signal is transferred to controller 3 by hot water button 28,
Controller 3 controls heat-exchanger pump 19 out of service, and supplying hot water stops;Meanwhile constantly distributing with the bath water heat of internal layer cylinder 8,
Hot water in sealing die cavity 9 constantly transfers heat to internal layer cylinder 8, and internal layer cylinder 8 constantly transfers heat to washing in internal layer cylinder 8
Bath water, the amplitude that bath water temperature reduces is reduced, avoids bather from suffering from cold.
In order to implement the temperature control of bath water, the bath water of internal layer cylinder 8 is by after internal layer cylinder 8 constantly heating, located at internal layer
Its signal is transferred to controller 3 by the first temperature sensor 28 of cylinder 8, and the display of warm temperature indicator 30 that controller 3 controls is washed
The temperature of bath water;When the temperature of bath water reaches the temperature upper limit of setting, compression is controlled using the stop button 25 of controller 3
Machine 14 stops, and radiator 15 stops radiating, avoids bath water temperature from continuing to rise.
After intelligent air energy bathtub radiator is in use, the bath water temperature of internal layer cylinder 8 reaches the temperature upper limit of setting, bathing
Person enters internal layer cylinder 8, is sitting in or lies on inner disc 6, carries out bathing or bathing, avoids human body from being contacted with internal layer cylinder 8;With
The continuous decline of bath water temperature clicks start button 24, it is necessary to when heating bath water again, and start button 24 is by its signal
Controller 3 is transferred to, the air energy device 2 of controller 3 is worked, and compressor 14 is run, and utilizes the low temperature of the absorption air of evaporator 17
Heat energy, low temperature heat energy are converted into the heat energy of high temperature after compressor, the heat conduction transferred heat to using radiator 15 in inner bag 5
Oil 18 and inner bag 5, the water sealed in die cavity 9 is heated using inner bag 5, the water sealed in die cavity 9 transfers heat to bilayer
The internal layer cylinder 8 of bathtub 4, using internal layer cylinder 8 by the bath water heating in internal layer cylinder 8;When the temperature of bath water reaches the temperature of setting
When spending the upper limit, control air energy device 2 out of service using the stop button 25 of controller 3;So constantly circulation.
Intelligent air energy bathtub radiator controls in use, as the hot water in sealing die cavity 9 is warm manually as bathing
Water pump 19 is extracted into internal layer cylinder 8, seals the water level in die cavity 9 with reduction;When the liquid level in sealing die cavity 9 passes less than the 4th liquid level
During the position of sensor 50, its signal is transferred to controller 3, the control control water supply electromagnetism of controller 3 by the 4th liquid level sensor 50
Valve 22 is opened, the sealing die cavity 9 that running water is entered between outer layer cylinder 6 and internal layer cylinder 7 by running water pipe 23 through water supply electromagnetic valve 22;
When sealing the position of the 4th liquid level sensor 50 of arrival of the water level in die cavity 9, the 4th liquid level sensor 50 transmits its signal
To controller 3, controller 3 controls water supply electromagnetic valve 22 to close;So constantly circulation, is controlling the water level in sealing die cavity 9
In the range of.
In order to implement to radiating bathtub 1 and provide hot water elsewhere, radiating bathtub 1 is provided with split flow pump 37, split flow pump
37 tap 38 is connected with the joint 20 that draws water of heat-exchanger pump 19, using split flow pump 37 by delivery to elsewhere;Outside
The layer wall of cylinder 6 is provided with suction eye 39, and the joint 20 that draws water of heat-exchanger pump 19 is installed on suction eye 39, and draw water joint 20 and suction eye
39 are tightly connected;Internal layer cylinder 8 is provided with apopore 40, and the water out adapter 21 of heat-exchanger pump 19 is installed on apopore 40, water out adapter
21 are tightly connected with apopore 40.
In order to implement the heat sinking function of radiating bathtub 1, the high temperature heat of the radiator 15 of air energy device 2 is delivered to interior
On the internal layer cylinder 8 of courage 5 and the bathtub 1 that radiates, and the loss of heat is reduced, inner bag 5 and internal layer cylinder 8 are by Heat Conduction Material structure
Into Heat Conduction Material includes aluminium alloy or stainless steel;Outer layer cylinder 6 is made up of non-thermally conductive material, and non-thermally conductive material includes pottery
Porcelain, resin and plastics, ceramics, resin and plastics are interior to be provided with hollow molded cavity;The outer layer covers of outer layer cylinder 6 have one layer of heat preservation cotton
41;For improving its heat-proof quality.
In order to avoid the bath water for the bathtub 1 that radiates overflows, the wall of the upper end of outer layer cylinder 6 is provided with spilling water joint 42, and spilling water connects
First 42 are connected with downcomer 13;(12 walls are provided with the first osculum 43 and the second discharge outlet 44 to the cylinder bottom of internal layer cylinder 8, manually
Discharging valve 10 is installed on the first osculum 43, and Manual water drain valve 10 is tightly connected with the first osculum 43, and electric draining valve 11 is pacified
Loaded on the second discharge outlet 44, electric draining valve 11 is tightly connected with the second discharge outlet 44;The water level of the bath water of internal layer cylinder 8 exceedes
During the position of spilling water joint 42, spilling water joint 42 is discharged to downcomer 13 by bath water.
In order to avoid direct body contact's internal layer cylinder 8, heat conduction space 45 is provided between inner disc 6 and internal layer cylinder 8, inner disc 6 is set
There is thermal hole 46, heat conduction space 45 connects with thermal hole 46;Intelligent air energy bathtub radiator is as radiator in use, heat conduction
The thermal current in space 45 flows the interior space by thermal hole 46, implements the heating function of intelligent air energy bathtub radiator;Intelligence
Energy air energy bathtub radiator is as bathtub in use, the bath hot water in heat conduction space 45 flow to internal layer cylinder by thermal hole 46
8 position of non-conductive space 45, transfer heat to the bath water of internal layer cylinder 8.
Intelligent air energy bathtub radiator is as heating radiator in use, controlling air energy device 2 will using controller 3
The water heating radiated in the sealing die cavity 9 of bathtub 1, using radiating, bathtub 1 distributes heat in the interior space;Intelligent air can bathe
Cylinder radiator is as bathing or bathing in use, the water of closed type intracavitary is extracted into radiating bathtub 1 using heat-exchanger pump 19
Layer cylinder 8, meanwhile, the bath water heating of internal layer cylinder 8 is incubated using air energy device 2;Using the first temperature sensor 29 and
Liquid level sensor 32 implements the intelligent control to intelligent air energy bathtub radiator;Implemented using mobile phone and internet to intelligence
Air energy bathtub radiator long-distance controls, and controls the work of intelligent air energy bathtub radiator in advance outside, gets hot water ready in advance.
Intelligent air energy bathtub radiator is as radiator intelligent control in use, pressing an intelligent control button 36, intelligence
Its signal is transferred to controller 3 by energy control button 36, and controller 3 enters radiating intelligent control state;Controller 3 enters radiating
After intelligent control state, controller 3 controls water supply electromagnetic valve 22 to open, and running water is entered by running water pipe 23 through water supply electromagnetic valve 22
Enter to seal die cavity 9, when sealing the position of the 4th liquid level sensor 50 of arrival of the water level in die cavity 9, the 4th liquid level sensor 50
Its signal is transferred to controller 3, controller 3 controls water supply electromagnetic valve 22 to close, and running water stops entering sealing die cavity 9;Together
When, controller 3 controls air energy device 2 to work, and compressor 14 is run, using evaporator 17 and radiator 15 by the low of air
The high temperature heat that can be converted into is warmed, is heated the water sealed in die cavity 9 by radiator 15, conduction oil 18 and inner bag 5;It is close
Hot water in envelope die cavity 9 transfers heat to internal layer cylinder 8 to double-layer bathtub 4, internal layer cylinder 8 radiate heat into inner disc 6 with it is interior
Heat conduction space 45 between layer cylinder 8, the air of heat conduction space 45 is heated, and the thermal current in heat conduction space 45 is flowed by thermal hole 46
The interior space, implement the heating function of intelligent air energy bathtub radiator;When the temperature of interior is higher than the room temperature upper limit set,
Its signal is transferred to controller 3 by temperature controller 33, and controller 3 controls compressor 14 to stop, and radiator 15 stops radiating;With room
The continuous reduction of interior temperature, when temperature the prescribing a time limit at room temperature less than setting of interior, its signal is transferred to control by temperature controller 33
Device 3, controller 3 control compressor 14 to run, and radiator 15 radiates again;So constantly circulation, indoor temperature control is being set
In fixed scope;Intelligent air energy bathtub radiator as bathtub in use, pressing hot water button 28, believed by hot water button 28
Controller 3 number is transferred to, controller 3 enters bathing intelligent control state, and controller 3 controls heat-exchanger pump 19 to run, heat-exchanger pump 19
The hot water sealed in die cavity 9 is extracted into internal layer cylinder 8, used as bath water;When the bath water water level of internal layer cylinder 8 reaches setting
Water level when, its signal is transferred to controller 3 by liquid level sensor 32, and controller 3 controls heat-exchanger pump 19 out of service, supplying hot water
Stop, the bath water for being adapted to bathing temperature is provided for user;Meanwhile radiator 15 is continuous by conduction oil 18 and inner bag 5
Internal layer cylinder 8 is transferred heat to, internal layer cylinder 8 constantly by the bath water of heat transfer internal layer cylinder 8, avoids the reduction of bath water temperature;
As the bath water of internal layer cylinder 8 constantly absorbs the heat of the transmission of internal layer cylinder 8, when the temperature of bath water is risen in the temperature of setting
In limited time, its signal is transferred to controller 3 by the first temperature sensor 28, and it is out of service that controller 3 controls compressor 14 to run, and dissipates
Hot device 15 stops radiating;Bathing or bathing are finished, and press drain button 27, and its signal is transferred to controller by drain button 27
3, controller 3 controls electric draining valve 11 to open, and the bath water of internal layer cylinder 8 is discharged to downcomer 13 through electric draining valve 11;Meanwhile
Controller 3 exits intelligent control state.
In order to implement the long-distance intelligent control of intelligent air energy bathtub radiator, after controller 3 exits intelligent control state,
User is contacted using mobile phone or network by blue-tooth device 34 and controller 3, and the instruction for preparing bath hot water is issued into control
Device 3 processed, controller 3 are converted into intelligent control state after receiving instruction;Controller 3 controls water supply electromagnetic valve 22 to open, running water
Enter sealing die cavity 9 through water supply electromagnetic valve 22 by running water pipe 23, when the water level in sealing die cavity 9 reaches the 4th liquid level sensor
During 50 position, its signal is transferred to controller 3 by the 4th liquid level sensor 50, and controller 3 controls water supply electromagnetic valve 22 to close,
Running water stops entering sealing die cavity 9;After water supply electromagnetic valve 22 is closed, controller 3 controls air energy device 2 to work, by dissipating
Hot device, conduction oil 18 and inner bag 5 heat the water sealed in die cavity 9, get out bath hot water in advance for user, implement intelligence
The long-distance intelligent control of energy air energy bathtub radiator work;When in the temperature that the temperature of the water in sealing die cavity 9 reaches setting
In limited time, its signal is transferred to controller 3 by the first temperature sensor 28, and controller 3 controls air energy device 2 to be stopped;Such as
This is constantly circulated, by the water management sealed in die cavity 9 within the temperature range of setting.
In order to avoid the failure of the first temperature sensor 29, the temperature control of bath water, the first temperature sensor 29 are caused
In the bath water in internal layer cylinder 7, second temperature sensor 30 is located in the conduction oil 18 of inner bag 5;First temperature sensor 29
Different from the temperature that second temperature sensor 30 is controlled, the temperature that second temperature sensor 30 controls is more than the first TEMP
The temperature that device 29 controls;The temperature controlling range of first temperature sensor 29 is 35 °C to 40 °C;Second temperature sensor 30
Temperature controlling range is 41 °C to 45 °C.During the first 29 failure of temperature sensor, the temperature of bath water is more than the first TEMP
The temperature upper limit that device 29 controls;As radiator 15 constantly transfers heat to conduction oil 18, when the temperature of conduction oil 18 exceedes
During the temperature upper limit of setting, its signal is transferred to controller 3 by second temperature sensor 30, and controller 3 controls compressor 14 to stop
Only work, the radiating of radiator 15 stops.
In order to control the liquid level of radiating bathtub 1, liquid level sensor 32 includes the first liquid level sensor 47 and the second liquid
Level sensor 48, the first liquid level sensor 47 are located at the top of the second liquid level sensor 48, and the first liquid level sensor 47 is located at internal layer
The top of cylinder 7, the position of the first liquid level sensor 47 is lower than the position of spilling water joint 42, and the second liquid level sensor 48 is located at internal layer
The middle part of cylinder 7, for controlling the water level of radiating bathtub 1.Controller 3 is provided with liquid level selecting switch 49, and liquid level selecting switch 49 is set
There are the first gear and the second gear;First gear of liquid level selecting switch 49 is connected with the first liquid level sensor 47, liquid level choosing
Switch 49 is selected when pushing the position of the first gear, the first liquid level sensor 47 passes through liquid level selecting switch 49 and the control of controller 3
Circuit connection processed;Second gear of liquid level selecting switch 49 is connected with the second liquid level sensor 48, and liquid level selecting switch 49 pushes
During the position of the second gear, the second liquid level sensor 48 is connected by liquid level selecting switch 49 with the control circuit of controller 3.
When intelligent air energy bathtub radiator is as bathing intelligent control, bather selects water level according to demand;Work as needs
During high water level, liquid level selecting switch 49 is pushed to the position of the first gear;Controller 3 controls heat-exchanger pump 19 to run, heat-exchanger pump 19
The hot water sealed in die cavity 9 is extracted into internal layer cylinder 8, when the water level in internal layer cylinder 8 reaches the position of the first liquid level sensor 47
When, its signal is transferred to controller 3 by the first liquid level sensor 47, and controller 3 controls heat-exchanger pump 19 to stop pumping;It is low when needing
During water level, liquid level selecting switch 49 is pushed to the position of the second gear;Controller 3 controls heat-exchanger pump 19 to run, and heat-exchanger pump 19 will
Hot water in sealing die cavity 9 is extracted into internal layer cylinder 8, when the water level in internal layer cylinder 8 reaches the position of the secondth liquid level sensor 48
When, its signal is transferred to controller 3 by the second liquid level sensor 48, and controller 3 controls heat-exchanger pump 19 to stop pumping.
In order to detect inner disc 6, whether someone enters bathing, and inner disc 6 is provided with foot pad 51, avoids inner disc 6 from being bonded at internal layer cylinder 8
Together;Compression spring 53 is provided between inner disc 6 and internal layer cylinder 8, the upper end of compression spring 53 contacts with inner disc 6, compression spring 53
Lower end contacted with internal layer cylinder 8;The height of compression spring 53 is more than the thickness of foot pad 51.Inner disc 6 is in the elastic force of compression spring 53
Under effect, make to form a heat conduction space 45 between inner disc 6 and the cylinder bottom 12 of internal layer cylinder 8.
In order to avoid people rise in bathing or the process of bathing, water temperature, bather is reminded, inner disc 6 is provided with induction pieces
55, induction pieces 55 are located at the top of inductive switch 33, and controller 3 is provided with temperature alarm 56;Intelligent air energy bathtub radiator
In use, bather lies in the bathing of inner disc 6, the gravity of human body overcomes the elastic force of compression spring 53, declines inner disc 6, make sensing
Its signal is transferred to controller 3 by part 55 close to inductive switch 33, inductive switch 33, by bather in the radiating bathing of bathtub 1
Information transmission is to controller 3;When the temperature of conduction oil 18 exceedes the temperature set, second temperature sensor 30 transmits its signal
During to controller 3, controller 3 controls temperature alarm 56, reminds user to stop bathing.When bather lies in 6 bathing of inner disc,
Inner disc 6 overcomes compression spring 53 to decline, and when the foot pad 51 of inner disc 6 contacts with internal layer cylinder 8, inner disc 6 stops declining, and makes inner disc 6
A heat conduction space 45 is maintained with internal layer cylinder 8, avoids human body from being contacted with internal layer cylinder 8.
In order to avoid double-layer bathtub 4 is split up by the hot water in sealing die cavity 9, double-layer bathtub 4 is provided with safety valve 57, safety valve
57 are installed on the casing wall of outer layer cylinder 7, and the water inlet of safety valve 57 connects with sealing die cavity 9, and the delivery port of safety valve 57 is with
Water pipe 13 connects;Temperature with hot water in sealing die cavity 9 constantly rises, and the sealing hydraulic pressure of die cavity 9 is continuously increased, and seals die cavity 9
When hydraulic pressure exceedes the safe pressure upper limit that safety valve 57 is set, safety valve 57 is automatically opened up, and the hot water for sealing die cavity 9 is let out down
Water pipe 13;When the hydraulic pressure for sealing die cavity 9 drops to below the safe pressure of setting, safety valve 57 is closed automatically, so constantly
Circulation, makes the hydraulic pressure control of sealing die cavity 9 in safe range.
In order to improve the bonding strength with outer layer cylinder 7 of internal layer cylinder 8, internal layer cylinder 8 is provided with rabbet along 52, and rabbet is along 52
It is embedded into the inside of outer layer cylinder 7, internal layer cylinder 8 is tightly connected integrally with outer layer cylinder 7.It is interior in order to ensure the intensity of radiating bathtub 1
Layer cylinder 8 is provided with reinforcement 54, and reinforcement 54 is fixedly connected with internal layer cylinder 8 and outer layer cylinder 7, and reinforcement 54 is by aluminium alloy or not
The steel that becomes rusty is formed, and reinforcement 54 welds with internal layer cylinder 8, and reinforcement 54 is embedded in outer layer cylinder 7, and reinforcement 54 passes through adhesive and outer layer
Cylinder 7 links together;Reinforcement 54 be provided with it is a plurality of, reinforcement 54 be distributed in sealing die cavity 9 in.